User:Student 58/Notebook/Biology 210 at AU

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LAB 3JAN 28, 2016

Hay Infusion after two weeks: There was still no order coming from the infusion, but half of the water had evaporated. There is almost nothing left in there, it primarily looks like dirty water. There is some dirt at the bottom, however the top layer has also extremely reduced. I hypothesis that there was not enough in the Hay Infusion that the organisms died, and the water evaporated from the laboratory classroom lights and the air could have been very dry this past week, that the air needed the moisture from the hay infusion. We would have growth on the agar plates because there are nutrients on the agar plates but there are no longer nutrients in the Hay Infusion Culture.

Side view of Hay Infusion Culture after 2 weeks in open air


The Image of Table 1 from the lab manual filled in for information from Transect 2's serial dilution results. Since the serial dilution was done in micro letters, the colonies on the plate were divided by 100 before being converted over to colonies/mL. This was done to remain in the same unit.

Table 1 Results

You can see more colonies on the plate without the antibiotic than with the antibiotic. This indicated that there was bacteria on the plates that were susceptible to the tetracycline anitbotic. Ttetracycline decreases the amount of bacteria but not fungi on the plates. However, no fungi was fund on the plates. There were also less colonies the more diluted plates. There was nothing found on the 10^-7, 10^-9, 10^-5 + tet, 10^-7 + tet, and 10^-9 + tet plates. At this part of the lab there is no indication how many species were unaffected by the tetracycline. By the looks of the colonies on the 10^-3 +tet plate (the only plate with tet that had colonies grow on it), it has about four different colonies on the plate.


10^-3 plate (left), 10^-3 + tet plate (right)
10^-5 plate (left),10^-5 + tet plate (right)
10^-7 plate (left), 10^-7 + tet plate (right)
10^-9 plate (left), 10^-9 + tet plate (right)

Mechanism of Tetracycline Tetracycline has three ways of resistance, they are tetracycline efflux, ribosomal protection, and tetracycline modification.Tetracycline efflux is an efflux gene in gram-negative bacteria that represses the tetracycline. The ribosomal protection works the same way. Tetracycline modification is very rare, and is not fully understood by the clinical field (Speer, 1992). A wide variety of bacteria are sensitive to tetracycline. Examples include both gram positive and negative bacteria, but especially: chlamydiae, mycoplasmas, rickettsiae, and protozoan parasites (Chopra, 2001).

Table two descriptions of cells and types of motility. All were observed at 40x magnification)
2.5 arranged in a random order, and sphere shaped)
1.25 um, arranged in a random order, and rod shaped)
ranged from 2.5-5 um, arranged in a random order, and rod shaped)
nothing grew on this agar plate and therefore there is nothing to see)

References Chopra, I., & Roberts, M. (2001, June 6). Tetracycline Antibiotics: Mode of Action, Applications, Molecular Biology, and Epidemiology of Bacterial Resistance. Retrieved February 04, 2016, from http://www.ncbi.nlm.nih.gov/pmc/articles/PMC99026/

Speer, B. S., Shoemaker, N. B., & Salyers, A. A. (1992, October 5). Bacterial resistance to tetracycline: Mechanisms, transfer, and clinical significance. Retrieved February 04, 2016, from http://www.ncbi.nlm.nih.gov/pmc/articles/PMC358256/

ALE

LAB 2 JAN 21, 2016

They hay infusion did not smell like anything. There was some mol and what looked like branches on the top of the hay infusion. The center was clear, and has the ability to bee seen through. The bottom section of the hay infusion was a dark/dirty mustard yellow. It also looked like there were some articles at the bottom of the container.

Organisms might move closer or further away from the top of bottom of the container would be determined on how it received their nutrients. If a plant matter organism used photosynthesis to receive energy, then it would most likely exist towards the top of the surface to receive maximum exposure from the sun/light. A protists organism might revive its nutrients from the milk protein that settled at the bottom of the container, and therefore be found towards the bottom of the hay infusion container.

If the presence of photosynthetic microorganisms such as algae are present in the culture, then it is likely that algae will exist closest to its surface for maximum exposure to the sun. Also, if protists reside within the Hay Infusion Culture, then it is likely that they will be found near its most bottom layer where the milk protein has settled.

Side view of Hay Infusion Culture after adding milk protein and allowing to settle for a week
Aerial view of Hay Infusion Culture after adding milk protein and allowing to settle for a week. There are molds present at the surface level of the culture

Organisms found in Hay Infusion:

Diatom,a form of Algae, found in TOP layer of Hay Infusion Culture, 150 micrometers at 40X Magnification
Paramecium found in TOP layer of Hay Infusion Culture, 10 micrometers in length at 40X Magnification
Diatom, found in MIDDLE layer of Culture, 36 micrometers in length at 40X Magnification. Brown-yellow in color, non-motile, photosynthesizing form of algae
Hydrodictyon, found in BOTTOM layer of Culture, 42.5 micrometers in length at 40X Magnification
Image of Diatom, middle level, brownish with patterned grooves and rows, 36 um

Diatoms meet all the needs of life as described on page 2 of the Freeman text in that it 1. is comprised of cells, or more specifically, it's unicellular 2. with cell walls 3. use chlorophyll to harvest energy from the sun (photosynthesis) 4. able to adapt to their environment (i.e. forming stalks to attach to water surface) 5. Can grow by forming larger colonies 6. has an oogamous sexual reproduction cycle). (Can be seen at top of the page)


If the Hay Infusion Culture had been allowed to grow for an additional two months, the microorganisms that are in the Hay Infusion may have been able to reproduce. Or there may not be anything growing because there si a lack of nutrients in the culture, and the microorganisms died. This would either lead to an increased competition for resources and a lab-friendly window into a microscopic survival of the fittest scenario, or after 2 months nothing will be there to observe.


For next lab:

Diagram of the serial dilution procedure for next lab

....

ALE

LAB 1 JAN 14, 2016

TRANSSECT 2

Aerial Diagram of Transect

Photographs of transect:

Side shot of river/slight down hill section of transect
Ariel shot of river section of transect
Close up view of transect river


Photograph of samples taken from transect for hay fusion

Biotic components of transect: -leaves -dry soil: closer to the edge of the transect closest to the walking path, -wet soil: closer to the river multiple smaller dead trees scattered throughout the transect, scattered leaves through transect and in the river river mold on the rocks in the river multiple rocks in the river river water

Abiotic Factors of transect: -None present/directed towards transect. .... ALE

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